You have probably come across the question what are free radicals in the body and are wondering exactly what they are. These are simply highly reactive molecules manufactured in the body. They are manufactured through a natural body process as an end product of oxidation (metabolism), and by exposure to readily available toxins in the environment such as ultraviolet light and tobacco smoke.
It is worth noting that they often come as an unpaired electron, and for them to be stable, they have to constantly search for another lone electron in which they will bound. Another thing worth noting is they are often responsible for a myriad of processes and complications in the human system, top among them tissue damage, aging, and a couple of diseases linked to these radicals.
These radicals are known as "free" because of the fact that they are floating around aimlessly in search of stabilization. They are defined as "radicals" since they can pair with so many other electrons in the body. When they find another molecule to pair with, the donating cell loses an electron, thus becoming a "free radical" as well. The vicious process of looking for yet another lone molecule to pair with thus causes a snowball effect and may end up damaging all healthy body tissues.
As previously mentioned, these molecules have been linked to a myriad of health complications including heart disease, cancer, Alzheimer's disease, rheumatoid arthritis, age-related mucular degeneration, Parkison's disease, and glaucoma to mention but a few.
The good news is that the lone molecules can be stabilized and the degenerating effect brought to a halt, all thanks to antioxidants. Note that the process of stabilization destroys so many healthy tissues, hence the need to put to an end to the degenerative process.
There is reason to believe that antioxidants, e. G., Vitamin E, Vitamin C, and betacarotine, selenium, lycopene, lutein, lipoic acid, and resveratrol, can significantly reduce the damage brought about by the lone electrons in the human system. This they do by inhibiting the formation of the molecules in the first place. Antioxidants are vital molecules, present in most foods, which help prevent the lone electrons form affecting healthy tissue. In other words, they neutralize the free radicals thus protecting healthy body tissues against oxidative stress.
While these antioxidants are readily available in the market in supplement form, it is worth mentioning that they can also be derived from a number of natural remedies and foods. These foods include goji berries, cocoa, black tea, chokeberry, acai, oolong tea, medicinal mushrooms, white tea, wheatgrass, and tart cherries to mention but a few. Most vegetables and fruits are also believed to be potent sources of antioxidants, and so are proteins and grains.
The need to have a free radical scavenger can never be overemphasized enough. This can be a mineral, vitamin, or enzyme that has the ability to destroy the roaming and unstable molecules. The main role of the scavenger in the body is to hunt down all unstable molecules and work to destroy it early enough so they do not cause significant damage to cells. Once you understand what are free radicals in the body, you will be in the best position to search for these scavengers (read antioxidants).
It is worth noting that they often come as an unpaired electron, and for them to be stable, they have to constantly search for another lone electron in which they will bound. Another thing worth noting is they are often responsible for a myriad of processes and complications in the human system, top among them tissue damage, aging, and a couple of diseases linked to these radicals.
These radicals are known as "free" because of the fact that they are floating around aimlessly in search of stabilization. They are defined as "radicals" since they can pair with so many other electrons in the body. When they find another molecule to pair with, the donating cell loses an electron, thus becoming a "free radical" as well. The vicious process of looking for yet another lone molecule to pair with thus causes a snowball effect and may end up damaging all healthy body tissues.
As previously mentioned, these molecules have been linked to a myriad of health complications including heart disease, cancer, Alzheimer's disease, rheumatoid arthritis, age-related mucular degeneration, Parkison's disease, and glaucoma to mention but a few.
The good news is that the lone molecules can be stabilized and the degenerating effect brought to a halt, all thanks to antioxidants. Note that the process of stabilization destroys so many healthy tissues, hence the need to put to an end to the degenerative process.
There is reason to believe that antioxidants, e. G., Vitamin E, Vitamin C, and betacarotine, selenium, lycopene, lutein, lipoic acid, and resveratrol, can significantly reduce the damage brought about by the lone electrons in the human system. This they do by inhibiting the formation of the molecules in the first place. Antioxidants are vital molecules, present in most foods, which help prevent the lone electrons form affecting healthy tissue. In other words, they neutralize the free radicals thus protecting healthy body tissues against oxidative stress.
While these antioxidants are readily available in the market in supplement form, it is worth mentioning that they can also be derived from a number of natural remedies and foods. These foods include goji berries, cocoa, black tea, chokeberry, acai, oolong tea, medicinal mushrooms, white tea, wheatgrass, and tart cherries to mention but a few. Most vegetables and fruits are also believed to be potent sources of antioxidants, and so are proteins and grains.
The need to have a free radical scavenger can never be overemphasized enough. This can be a mineral, vitamin, or enzyme that has the ability to destroy the roaming and unstable molecules. The main role of the scavenger in the body is to hunt down all unstable molecules and work to destroy it early enough so they do not cause significant damage to cells. Once you understand what are free radicals in the body, you will be in the best position to search for these scavengers (read antioxidants).
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